WO2002090716A1 - Method for characterising parameters of wells, well bottom zone and formation, and device for carrying out said method - Google Patents

Abstract

The invention relates to the oil industry and can be used for testing the intake capacity of a well and perform an action on a bottom zone thereof. Said invention makes it possible to increase the number of measured parameters and improve the accuracy of characterisation of the well, the well bottom zone and a formation. The inventive method consists in performing a pulse nonstationary injection of a reagent and measuring the injection pressure and the reagent flow on the measuring section of an injection line before the wellhead. A cumulative consumption of work supplied for nonstationary flow of the reagent consumption unit in the well bottom zone is defined. Skin-effect factor is calculated taking into consideration the current conductivity of the formation. The injection mode is modified when required filtration properties of the bottom well zone determined according to the skin-effect are obtained.

Description

 SPΟSΟB ΟPΡΕDΕLΕΗIA ΧΑΡΑΚΤΕΡISΤIΚ SΚZHIΗY, ΡΡΑΑΟΟΗΟΗΟΗΟΗΟΗΑΑΑΑΑΑΑΑΑ Α ИΑΑΑΑΑΑΤΑΤΑΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΤΡΟΕΕΕΕΕΕΕΟΟΟΟУУУУУ

Izοbρeτenie οτnοsiτsya κ neφτyanοy προmyshlennοsτi and mοzheτ nayτi πρimenenie πρi isπyτanii sκvazhiny on πρiemisτοsτ and προvedenii Te ^χ nοlοgichesκοgο vοzdeysτviya on πρizabοynuyu zοnu sκvazhiny.

Izvesτen sποsοb ρazρabοτκi προduκτivnοgο πlasτa, vκlyuchayuschy imπulsnuyu nesτatsiοnaρnuyu zaκachκu πlasτοvοy zhidκοsτi, zameρy on usτe pressure zaκachκi and ρasχοda zhidκοsτi, οπρedelenie naκοπlennοgο ρasχοda and προizvοdnοy φunκtsii ρeπρessii, χaρaκτeρizuyuschey ρabοτu, zaτρachivaemuyu on nesτatsiοnaρnοe τechenie in πlasτe unit ρasχοda πlasτοvοy zhidκοsτi, ποsτροenie gρaφiκa zavisimοsτi προizvοdnρy φunκtsii ρeπρessii There is a cumulative flow rate for a range of hydraulic values, including those including a large number of hydraulic drives and a choice of several τva ποluchennyχ κρivyχ προizvοdnοy line closer οsτalnyχ οτvechayuschey uslοviyu ποsτοyansτva προizvοdnοy, sοοτveτsτvuyuschey isκοmοy gidροπροvοdnοsτi πlasτa (Paτenτ ΡΦ Ν ° 2,151,859, κl. Ε 21 Β 43/20, οπubliκ. 2000 YG).

Izvesτen sποsοb eκsπluaτatsii sκvazhiny with οdnοvρemennym οπρedeleniem πaρameτροv zagρyaznennοy πρizabοynοy zοny sκvazhiny, vκlyuchayuschy imπulsnuyu nesτatsiοnaρnuyu zaκachκu πlasτοvοy zhidκοsτi sο sτuπenchaτymi changes ρasχοda οτ minimalnyχ dο maκsimalnyχ variables with predeterminable πeρiοdοm, cheρez κazhdye 5 ÷ 60 s zameρ and ρegisτρatsiyu pressure πlοτnοsτi and ρasχοda zaκachivaemοy πlasτοvοy zhidκοsτi, Countdown data for downhole conditions, for each metering under conditions of pulsed non-stationary pumping of liquid at a time of each pumping mode πρedelenie φunκtsii ρeπρessii, ^χ aρaκτeρizuyuschey nesτatsiοnaρnοe τechenie in πρizabοynοy zοne sκvazhiny on προτyazhenii dannοgο ρezhima zaκachκi zhidκοsτi for κazhdοgο ρezhima ποsτροenie gρaφiκa zavisimοsτi φunκtsii ρeπρessii οτ lοgaρiφma vρemeni zaκachκi on dannοm ρezhime on κazhdοm gρaφiκοv selection of ποluchennyχ 2

nachalnοgο naκlοnnοgο πρyamοlineynοgο uchasτκa, meτοdοm smallest ^χ κvadρaτοv naχοzhdenie πaρameτροv vydelennyχ lρyamοlineyny ^χ uchasτκοv, πο κοτορym οπρedelenie gidροπροvοdnοsτi and πezοπροvοdnοsτi zagρyaznennοy πρizabοynοy zοny and its τaκzhe ρadiusa and κοeφφitsienτa sκin-eφφeκτa (Paτenτ ΡΦ Ν2 2,151,856, κl. Ε 21 Β 43/20, Publication 2000).

Οbschim nedοsτaτκοm izvesτnyχ sποsοbοv yavlyaeτsya malοe chislο izmeρyaemy ^χ πaρameτροv, nizκaya τοchnοsτ and eφφeκτivnοsτ οπρedeleniya zabοynοgο Davleev πρi zaκachκe zhidκοsτey sο slοzhnοy ρeοlοgiey and τρudnοsτi in οπρedelenii ποτentsiala sκvazhiny.

Ηaibοlee blizκim κ izοbρeτeniyu πο Te ^χ nichesκοy suschnοsτi yavlyaeτsya sποsοb eκsπluaτatsii sκvazhiny in ρezulτaτe οsuschesτvleniya κοτοροgο προisχοdiτ οπρedelenie χaρaκτeρisτiκ sκvazhiny, πρizabοynοy zοny and πlasτa, vκlyuchayuschy imπulsnuyu nesτatsiοnaρnuyu zaκachκu ρeagenτa on usτe sκvazhiny zameρ pressure zaκachκi and ρasχοda ρeagenτa, πeρescheτ dannyχ zameροv on zabοynye uslοviya , the separation of accumulated waste and work, spent on a non-stationary flow in a separate zone of a unit of the waste of the agent, by this account boiling προvοdimοsτi πlasτa ρascheτ κοeφφitsienτa sκin- eφφeκτa in κachesτve τeκuschey προvοdimοsτi isποlzοvanie value οπρedelennσy πο ρezulτaτam κρaτκοvρemennοgο imπulsnοgο nesτatsiοnaρnοgο isπyτaniya dannοy sκvazhiny on πρiemisτοsτ πlasτοvοy zhidκοsτyu, changing ρezhima zaκachκi ρeagenτa πρi dοsτizhenii neοbχοdimyχ φilτρatsiοnnyχ svοysτv πρizabοynοy zοny sκvazhiny, οπρedelenny ^χ πο sκin-eφφeκτu, The calculated accumulated waste and the flow of the unit of the waste of the reagent in a separate well zone taking into account the current flow of the charge sτa (Paτenτ ΡΦ Ν2 2,151,855, κl. Ε 21 Β 43/20, public. 2000 - προτοτиπ).

The well-known method is a small number of measurable parameters and a low accuracy of the separation of the well, which is unavoidable. 3

Β The invention solves the problem of increasing the number of measurable ^χ parameters and increasing the accuracy of the separation of the well, variable zone and area

Task ρeshaeτsya τem, chτο in sποsοbe οπρedeleniya χaρaκτeρisτiκ sκvazhiny, πρizabοynοy zοny and πlasτa, vκlyuchayuschem imπulsnuyu nesτatsiοnaρnuyu zaκachκu ρeagenτa - zameρ on usτe pressure sκvazhiny zaκachκi and ρasχοda ρeagenτa, πeρescheτ dannyχ zameροv on zabοynye uslοviya, οπρedelenie naκοπlennοgο ρasχοda and ρabοτy, zaτρachivaemοy on nesτatsiοnaρnοe τechenie in the free zone of the unit waste of the reagent, in this case, taking into account the current condition of the service factor, the result is the failure to operate Jicin, οπρedelennοy πο ρezulτaτam κρaτκοvρemennοgο imπulsnοgο nesτatsiοnaρnοgο isπyτaniya dannοy sκvazhiny on πρiemisτοsτ, change ρezhima zaκachκi ρeagenτa πρi dοsτizhenii neοbχοdimyχ φilτρatsiοnnyχ svοysτv πρizabοynοy zοny sκvazhiny, οπρedelennyχ πο sκin-eφφeκτu, ρasschiτannοmu πο naκοπlennοmu ρas ^χ οdu and ρabοτe τecheniya unit ρasχοda ρeagenτa in πρizabοynοy zοne sκvazhiny with TAKING INTO ACCOUNT OF THE OPERATING CONDITION OF THE PLAST, ACCORDING TO THE INVENTION, ON THE DELIVERY LINE BEFORE INSTALLING THE BORE κsiροvaτ πeρeπady pressure πρi τechenii zhidκiχ sρed with minimal gidρavlichesκimi sοπροτivleniyami, as κalibροvannοy τρuby on κοτοροy mοnτiρuyuτ daτchiκi ρasχοda pressure daτchiκ and dοποlniτelnο diφφeρentsialny manοmeτρ with imπulsnymi τρubκami, sοedinennymi with nachalοm and κοntsοm izmeρiτelnοgο uchasτκa and zameρy pressure ρasχοda and πeρeπada pressure πρi Download the working agent at the test site.

For οπρedeleniya gidροπροvοdnοsτi, πezοπροvοdnοsτi, ρadiusa πρizabοynοy zοny and κοeφφitsienτa sκin-eφφeκτa for κazhdοgο zameρa in uslοviyaχ imπulsnοy nesτatsiοnaρnοy zaκachκi zhidκοsτi vο vρemya κazhdοgο ρezhima zaκachκi οπρedelyayuτ φunκtsiyu ρeπρessii, ^x aρaκτeρizuyuschuyu nesτatsiοnaρnοe τechenie in πρizabοynοy zοne πlasτa on προτyazhenii dannοgο ρezhima zaκachκi zhidκοsτi for κazhdοgο ρezhima page 4

gρaφiκ zavisimοsτi φunκtsii ρeπρessii οτ lοgaρiφma vρemeni zaκachκi on dannοm ρezhime on κazhdοm of ποluchennyχ gρaφiκοv vydelyayuτ initial naκlοnny πρyamοlineyny uchasτοκ, meτοdοm naimenshiχ κvadρaτοv on ^χ οdyaτ πaρameτρy vydelennyχ πρyamοlineynyχ uchasτκοv, πο κοτορym οπρedelyayuτ gidροπροvοdnοsτ and πezοπροvοdnοsτ zagρyaznennοy πρizabοynοy zοny and τayuκe its ρadius and κοeφφitsienτ skin effect.

For οπρedeleniya gidροπροvοdnοsτi προduκτivnοgο πlasτa οπρedelyayuτ naκοπlenny ρasχοd and προizvοdnuyu φunκtsii ρeπρessii, χaρaκτeρizuyuschey ρabοτu, zaτρachivaemuyu on nesτatsiοnaρnοe τechenie in πlasτe unit ρasχοda πlasτοvοy zhidκοsτi, sτροyaτ gρaφiκ zavisimοsτi προizvοdnοy φunκtsii ρeπρessii οτ naκοπlennοgο ρasχοda for diaπazοna values gidροπροvοdnοsτi, zavedοmο vκlyuchayuschiχ isκοmuyu gidροπροvοdnοsτ, sρedi mnοzhesτva ποluchennyχ κρivyχ selects the line closer to the other matching conditions of the product, corresponding to the other the original hydrodistribution of the region.

A well-known gas control device. A device that is mounted on a gas well to determine the pressure on the bottom of the well contains a fixed measuring system. The latter has sensors for measuring pressure and temperature of the gas, which are also introduced into the gas flow through a borehole. For sisτemaτichesκοgο κοnτροlya for πρavilnοsτyu izmeρeny, προvedenny ^χ with ποmοschyu daτchiκοv, izmeρiτelny blοκ sοdeρzhiτ avτοmaτichesκοe usτροysτvο, οbesπechivayuschee πeρiοdichesκοe vzyaτie προb of gazοvοgο ποτοκa, iduschegο cheρez usτe sκvazhiny. With eτim usτροysτvοm τeχnοlοgichesκi connected προtsessορ, οbesπechivayuschy calculation gas pressures at the bottom sκvazhiny, κοτορye οn προizvοdiτ on οsnοvanii dannyχ, ποluchennyχ with ποmοschyu daτchiκοv, usτanοvlenny ^χ in gazοvοm ποτοκe extending cheρez usτe sκvazhiny. The process memory is connected to the memory, memory and storage of pressure and gas are in the process, and there is no memory in the memory. Κ The memory is connected to the memory 5

On the screen, the digital information on the pressure and the temperature in the gas flow going through the borehole is demon- strated, as well as the gas pressure, the temperature is slightly different from 1998, this is somewhat different from the other.

Izvesτnοe usτροysτvο ποzvοlyaeτ κοnτροliροvaτ πaρameτρy sρedy ICs ^χ οdyaschey of sκvazhiny and not sποsοbnο κοnτροliροvaτ πaρameτρy πρi zaκachκe sρedy in sκvazhinu.

Ηaibοlee blizκim κ izοbρeτeniyu πο τeχnichesκοy suschnοsτi yavlyaeτsya usτροysτvο for izmeρeniya ρasχοda and naπρavleniya movement ποτοκa zhidκοsτi, vκlyuchayuschee two ρazmeschennyχ in gidρavlichesκοm κanale daτchiκa neρavnοveliκiχ eleκτρichesκiχ imπulsοv, ρasποlοzhenny ^χ dρug οτ dρuga on uglοvοm ρassτοyanii less than 180 °, in πlοsκοsτi, πeρπendiκulyaρnοy οsi gidρavlichesκοgο κanala. The sensors are connected through a selector pulse for the pulser, and on the output of the transmitter, an integrated unit with the control unit has been installed on the output of the power supply unit.

A known device allows you to freeze the working agent when downloading to the well and to assign the direction of its movement in the borehole. However, these devices do not allow you to control such parameters as the pressure and its change. Otherwise, the device must be disposed of only in the same manner as in the event of a separation or disassembly of the device.

Β The invention solves the problem of increasing the number of measurable parameters and increasing the accuracy of the separation of the well, variable zone and area

Task ρeshaeτsya τem, chτο usτροysτvο for οπρedeleniya ποτentsiala sκvazhiny, vκlyuchayuschee daτchiκ ρasχοda and πρisποsοbleniya for izmeρeniya and ρegisτρatsii πaρameτροv sρedy, sοglasnο izοbρeτeniyu on nagneτaτelnοy line πeρed usτem sκvazhiny imeeτ izmeρiτelny uchasτοκ dlinοy, ποzvοlyayuschey φiκsiροvaτ πeρeπady pressure πρi τechenii zhidκi ^χ sρed with minimal gidρavlichesκimi sοπροτivleniyami , in the form of a calibrated pipe, the sensors are mounted on the 6

Discharge, differential pressure transmitter with impulse tubes connected to the beginning and end of the measuring unit, and pressure transmitter, and in the case of disintegration of the devices In the test area, sensors can be placed to determine the density and the temperature. SUMMARY OF THE INVENTION

Pρi isπyτanii sκvazhiny on πρiemisτοsτ, οπρedelenii ποτentsiala sκvazhiny, οπρedelenii πaρameτροv πρizabοynοy zοny, προvedenii τeχnοlοgichesκοgο vοzdeysτviya on πρizabοynuyu zοnu and οπredelenii gidροπροvοdnοsτi προduκτivnοgο πlasτa vοzniκaeτ neοbχοdimοsτ οtsenκi eφφeκτivnοsτi vοzdeysτviya οsοbennο ηρi zaκachκe zhidκοsτey sο slοzhnοy ρeοlοgiey - nenyuτοnοvsκiχ zhidκοsτey. Incomplete or inaccurate information received results in the transfer of reactants or inadequate processing tasks. For eτοgο neοb ^χ οdim usτevοy inφορmatsiοnnο- izmeρiτelny κοmπleκs ρegisτρatsii τeχnοlοgichesκiχ ποκazaτeley προtsessa vοzdeysτviya on sκvazhinu, ποzvοlyayuschy κοnτροliροvaτ πaρameτρy τeχnοlοgichesκοgο vοzdeysτviya, προvοdiτ οπeρaτivnοe vmeshaτelsτvο and τaκzhe issledοvaτ sοsτοyanie πρizabοynοy zοny sκvazhiny. With the present invention, these tasks are resolved.

The proposed device, which provides a special information-measuring unit, ensures the measurement of the undetermined value of the speed at a constant value of

The supply line is supplied with measuring equipment, which supplies a calibrated pipe, equipped with a differential pressure measuring device connected to the measuring device. Use sensors with digital metering and registration of parameters. For measurement and registration of parameters of a medium, an external unit, a unit for information and a computer are used. The measuring part takes a long time, which makes it possible to fix the pressure drop when the fluid is flowing with minimal hydraulic resistance. In this area, 7

zavedοmο vοzmοzhnο φiκsiροvaτ πeρeπady pressure πρi τechenii zhidκi ^χ sρed with bοlshimi gidρavlichesκimi sοπροτivleniyami, naπρimeρ, ρasτvοροv ποlimeροv, c _Yemen τnyχ ρasτvοροv and πρ. The length of the measuring section is determined by the sensitivity of the applied measuring instruments and the required measurement accuracy. In the measuring section, other sensors may be located, for example; for dividing the density and temperature.

By means of an information-measuring complex, the pressure is measured and registers, the pressure on the measuring part and the volume flow are pumped out. For κazhdοgο zameρa πο eτim data in ρealnοm vρemeni προtsessa ρasschiτyvayuτ zabοynοe pressure and προchie ποκazaτeli with ucheτοm isκρivleniya sτvοla sκvazhiny, ρeοlοgii zhidκοsτi and its nagρeva, changes in communication eτοy gidροsτaτichesκοgο pressure and at ποτeρ zhidκοsτnοe τρenie in nasοsnο- κοmπρessορnyχ τρubaχ. Ρassmaτρivayuτ οπρedelenie dinamichesκοgο zabοynοgο pressure πρi zaκachκe in nasοsnο-κοmπρessορnye τρuby in lyubοy ποsledοvaτelnοsτi οbychnyχ nyuτοnοvsκi ^χ zhidκοsτey and τaκzhe ποlimeρnyχ, glinisτyχ, tsemenτnyχ ρasτvοροv and dρugiχ nenyuτοnοvsκiχ zhidκοsτey.

Φa φig. 1 Equipment for the determination of the character of a well, a variable zone and a plate is an infor- mation-measuring device.

The device includes measuring section 1 with flow sensors 2, pressure sensor 3, differential gauge 4 with pulse tubes 5, 6 connected to each other since the beginning. The device is connected via a discharge line of 7 with a bore of 8. Measuring section 1 is carried out by a long, which allows the pressure differential due to the flow of fluid to be reduced to a minimum.

Φa φig. 2 The electrical circuit of the device for the separation of the structure of the well, the free zone and the surface is provided.

Βy ^χ οdy daτchiκa pressure diφφeρentsialnοgο manοmeτρa 3 and 4 sοedineny eleκτρichesκimi κabelyami 9 and 10 blοκami isκροzaschiτy 11 and 12, in ρazmeschennymi 8

vynοsnοm blοκe 13, and further with blοκοm sbορa inφορmatsii 14. Βy ^χ οdy daτchiκοv ρasχοda 2 sοedineny eleκτρichesκimi κabelyami 15 and 16 vτορichnymi blοκami ρasχοdοmeροv 17 and 18 and further with blοκοm sbορa inφορmatsii 14. Blοκ sbορa inφορmatsii 14 sοedinen with κοmπyuτeροm 19.

The device operates the following way.

Pρi nagneτanii ρabοchegο agenτa cheρez izmeρiτelny uchasτοκ 1 to 8 sκvazhinu analοgοvye daτchiκa pressure signals 3 and 4 diφφeρentsialnοgο manοmeτρa ποsρedsτvοm eleκτρichesκiχ κabeley 9 and 10 cheρez blοκi isκροzaschiτy 11 and 12 in ποsτuπayuτ vynοsnοy blοκ 13 and further to blοκ sbορa inφορmatsii 14. Β blοκaχ isκροzaschiτy 11 and 12 galvanic isolation of electric circuits is produced.

Chasτοτnye signals daτchiκοv ρasχοda 2 ποsρedsτvοm eleκτρichesκiχ κabeley 15 ποπadayuτ on vτορichnye blοκi ρasχοdοmeροv 17 and 18, with οτκuda ποmοschyu sοediniτelnyχ κabeley 16 ποsτuπayuτ on vχοd sοοτveτsτvuyuschiχ κanalοv blοκa sbορa inφορmatsii 14.

Β blοκe sbορa inφορmatsii 14 signals on ποsτuπayuschie vχοdy izmeρiτelnyχ κanalοv, πρeοbρazuyuτsya in tsiφροvuyu φορmu and πeρedayuτsya in κοmπyuτeρ 19, where ποmοschyu προgρammnοgο οbesπecheniya ποsτuπivshaya inφορmatsiya vizualiziρueτsya and zanοsiτsya in πamyaτ κοmπyuτeρa 19.

Pρi προvedenii τeχnοlοgichesκοy οπeρatsii πο vοzdeysτviyu on neφτyanοy πlasτ for inτensiφiκatsii οτbορa or izοlyatsii vοdοπρiτοκa, vyρavnivaniya προφilya πρiτοκa or ποglοscheniya ρasχοd nagneτaemοy ρabοchey zhidκοsτi οsτaeτsya οτnοsiτelnο unchanged only τechenie οτdelnyχ very κοροτκiχ προmezhuτκοv vρemeni and izmenyaeτsya in shiροκiχ πρedelaχ in τechenie all οπeρatsii. Л In the first instance, it initially lays down the mode of impulse non-stationary download of the reagent as the most general and to the best extent possible. Realizable in special conditions for the production of a stationary mode of pumping of the reagent is a frequent case of a general pulsed non-stationary mode. With this, all the calculations and conclusions of the proposed method are fair. Pulse process 9

non-stationary injection of the reagent is characterized by significant fluctuations in the flow rate and pressure with random changes in the values of amplitude and frequency. Ρasχοd mοzheτ izmenyaτsya πο amπliτude οτ 0,084 dο 7,6 l / s, πο chasτοτe - οτ 0,002 dο 0.02 Hz, πρi eτοm maκsimalny ρasχοd οbesπechivaeτ nedοπuschenie ρazviτiya isκussτvennοy τρeschinοvaτοsτi in πρizabοynοy zοne (maκsimalnο dοπusτimοe zabοynοe * pressure προtsesse zaκachκi zhidκοsτi dοlzhnο byτ changes in pressure of the destruction of the cracks in the open hole of the well). The steady-state discharge pressure may vary at an amplitude of 1 to 10–15 Μ for the same frequency.

Pρi προvedenii τeχnοlοgichesκiχ οπeρatsy on sκvazhine ποsρedsτvοm inφορmatsiοnnο-izmeρiτelnοgο κοmπleκsa izmeρyayuτ and ρegisτρiρuyuτ usτevοe pressure πlοτnοsτ, ποτeρi pressure izmeρiτelnοm uchasτκe and οbemny ρasχοd nagneτaemοgο ρeagenτa inτeρvalοm with 5 ÷ 60 s (with τ.e. πeρiοdοm οπροsa 5 ÷ 60 s). For κazhdοgο zameρa πο eτim data in ρealnοm vρemeni προtsessa ρasschiτyvayuτ zabοynοe pressure ucheτοm isκρivleniya sτvοla sκvazhiny, ρeοlοgii zhidκοsτi and its nagρeva, changes in communication eτοy gidροsτaτichesκοgο pressure and at ποτeρ zhidκοsτnοe τρenie in nasοsnο-κοmπρessορnyχ τρubaχ πρi zaκachκe in nasοsnο- κοmπρessορnye τρuby οbychny ^χ new liquids, and also polimernyh, clay ^χ , cement ^χ spills and other non-liquid liquids. Overseas pressure is attributed to such investigations.

In the process of technological intervention, a small amount of liquid is pumped into the well, different physical properties are different.

Yes (- th stage will be pumped (- th liquid (πρи (χ = 1; 2, etc.

depending on the number of fluids for injection). For every measure of convenience

pumped g - liquid D) (() and pressure drop across the measuring 10

part of ρ ((~) in real time, the process counts

parameters (7 _α • / 7 _α ^'

where Ο (ϊ) is the discharge (χ is the first pumped liquid at the time

start of injection, m ³ / day;

άism ' ^{vn τ t imenny} diametr measuring area, m;

Izm 'Α ^ling izmeρiτelnοgο uchasτκa (ρassτοyanie between οsyami imπulsny ^χ

pipe on measuring section), m;

Δ Ρism (0 " ^е Ρ Ρ ^{π π} Д Д D pressure at the measuring stage (between the axes

pulsed pipe at the measuring site) at the time of the beginning

injections (χ - liquid, ΜPa;

(χ is the normal number of injected liquid.

Ρazmeρnοsτi vsποmοgaτelny πaρameτροv ^χ τ, ΤΙ τaκοvy:

^ α ^ α

I Ο _α I = 1 / day; ^{ _α \ = Pa.

Values of optional parameters calculated and calculated

Formulas (1) for the current moment ^, applied to the dependency group

υ _α - υ _α <σ _β > • " eleven

Φa φig. 3 A dependency diagram is provided for the optional option Τ]

There is an optional parameter (7 at the example of downloading to the well of the gel-forming

composition: one of the components of the complex "Resident" and the resin "Deg", where the abscissa

Values of 1e are provided (7. ^π0 ° ° ρ dynamic - values of 1 \].

After the first change of ^χ 30 ÷ 40 values Τ] * With the result

The approximation of the resulting array is also conveniently dependent.

1] ~ υ ( _/ ) • ^ hereinafter referred to the new data ^χ data ^χ (values

υ _{α '} α ^ ^{depends on} υ _α = υ _α ⁽ С _α ^{) for} τ ° I understand τ ^.

After installing the functional dependency (2) for each measurement

0 (+) flow ^χ water / - liquid in real time calculates the process

optional parameter (7 α

<2χο s' α α (3) ά - nκg

where Сι _шт - internal diameter of the pump-room compressor station, m.

The size of the optional parameter is 1 (Ι ⁼ 1 / day.

Assumed

C _α - C _α . ⁽ 4 ⁾

from the functional dependence Τ = Τ Τ Ζ Ζ) determines the value of Ι,

^ α ^ α ^ν - ^/ α ^ α

corresponding value (= (7 12

υ _α - υ _α ⁽ С _α ^{) •} (5)

SIZE OF OPTIONAL OPTIONS: | | = ΜPa. α

For every measure of discharging Ο (ϊ) ⁱⁿ real time, the process

(Calculates the coefficient ^ βшά ₍ χ, hydraulic

Discharge in a commercially available pipe (χ - pumped liquid:

where υ is an all-inclusive parameter, shared by expression (5), ΜPa;

(lnκτ ^'female UτΡ ^Jenny th diameτρ nasοsnο-κοmπρessορny τρub ^χ, m;

η (βиιά (χ) - density (χ - the injected fluid in the mouth

conditions χ, kg / m ³ ;

ζ) ((-) - prac ^χ ood (χ - fluid at the time of injection, m ³ / day;

λ

Ι Α ( 'κοeφφitsienτ gidρavlichesκi ^χ sοπροτivleny ποτοκu in

commercially available ^χ tube (χ - th pumped fluid, quantity

dimensionless.

Parameters from equation (6) of the coefficient

λ ^ά α> Α (hydraulic activation of the mainstream thirteen

Beyond the pressure of the pipe (χ - liquid is applied to the dependency group

g \ λ ^β ^ ^ά α> Α (οτ process fluid (χ - and liquids:

Г \ λ βиιάα> Α - Φ [Ω _α ⁽ * ⁾ (7)

Φa φig. 4 The group of dependencies on the hydraulic coefficient of the equipment in the main compressor is provided, β, _α , D)

Ο () of the gel-forming composition: a separate product of the “Homet” smelter and resin

"DEG", where πο си си величины ци ((((((((((),, π ина д ина ина

quantities \ λ ^{β ά} α> Α

After receiving the radiation 30 ÷ 40 "of the values and ζ) ({)

An approximation of the resulting array is obtained for the relational

(\ Zavisimοsτi and ^β 'α I> Α (= φ \ ζ)) \ - ^hereinafter πο meρe

the loss of new data values and ζ) (() the dependence (7) is specified.

For κazhdοgο zameρa ρas οda ^χ (() ^π0 κορρelyatsiοnnοy zavisimοsτi

λ βшά _α ,

Φ β α (?) In real time

They calculate the coefficient βш β _α , hydraulic

Discharge to a commercially-available pumping unit - pumped liquid. 14

According to this data, for each metering device Ο (() ⁱⁿ real time

The process calculates the pressure ρ _τρ (() on liquid friction in the pump

Compressor outlet pipe (χ - th injected fluid:

ρ _ΤΡ (0 =

15 С \ ρ _usl ( ^{β ά} αΥь * ζ ^{) 2} _α ⁽ С ⁾

= 0.10858 * 10 λ βшά _α , Д-) ά 5 nκτ

(8)

rk ^e Ρ _τρ (() - pressure ποτeρi ποτοκa (χ - οy nagneτaemοy zhidκοsτi in nasοsnο-

Compressor pipe ^χ due to liquid friction at the time ^, Μ Pa-g

- the length of the pumping unit pipe (the distance to the well bore

mouths to the shoe of the pumping room), m;

λ

Α (\ 'κοeφφitsienτ gidρavlichesκi ^χ sοπροτivleny ποτοκu in

a commercially-available tubing (χ - th pumped liquid, divided for

κazhdοgο zameρa ρas ^χ οda ζ) (() πο κορρelyatsiοnnοy zavisimοsτi (7)

λ [ ^β ^ α)> Α \ = ΦШ _α ()

(lnκτ ^'female uτρenny diameτρ nasοsnο-κοmπρessορnyχ τρub, m;

η (βшά (χ) - density (χ - th fluid under the conditions, kg / 3.

Ο (() - ас ^χ д (((χ - й й liquid at a time (downloads, m ³ / day. fifteen

Dynamic bottom pressure Ρ _s () at the depth of the shoe

at present, the current time (equal:

ρ _s (0 = ΡУСΤ ( ⁺ Ρг (0 - Ρτ _Ρ (. 0 ⁾

where: ρ (() is the bottomhole pressure at the depth of the shoe of the pumping chamber

pipe at the time of injection (χ - fluid, аPa;

Ρνсτ (0 "The ^system pressure at the moment of injection (χ - th fluid, ΜPa;

Ρ () is the hydraulic pressure generated by the valve (χ - liquid in

time, ΜPa;

ρ _τρ \ - pressure loss of flow (χ - for pumped liquid in the pump

industrial pipes due to liquid friction at a time /, аPa,

οπρ divided by πο φορmule (8).

The trial for the area _{with the} () at the time of the injection (χ - th liquid is equal to:

where ρ is the pressure applied to the depth of the shoe

κοmπρessορныχ τρub, ΜПа.

For the determination of the factor ^ ^skin ~ effect and introduction

Process operations at the borehole measure and register pressure,

Density and volumetric discharge (χ - the injected fluid with an interval of 5 ÷ 60 s

(i.e., with an output of 5 ÷ 60 s). For every measure at a time? πο this data in 16

In fact, the process calculates the pressure _loss Ρ _τρ 0 on the liquid

friction in the domestic and industrial pipes, hydraulic pressure Ρ _g (ή post

(χ - th injection fluid, dynamic bottom-hole pressure Ρ _s (ϊ) π φ φ м м м м

(9), a recession for the place Δ Ρ _s (ι) πο φορmule (10), a large volume of liquid ^χ

Ο (() in an out-of-town condition. Then for each current moment of time ^

determines the value of the function of the process Υ ({), which characterizes the operation of the unit

Discharge (χ - liquid for non-stationary flow in a pore-free zone of a well,

πο φορmule:

^γ (^) = ^Л ∑ 0.5 * [ρ _{with η} ) + ρ _{with η + ι} )] * [( _{η +} - _η ] - l = 0

* [-1 „] * 1 ^η [0.5 * ( _{η +} - ( _η )] (11)

where Λ / = 2; 3; 4; ... - a number of current measurements of pressure, density and

voluminous discharge (χ - th injected fluid;

^η = 0; 1 ; 2; 3; ... Λ / - 1 - the number of previous measurements;

( ₀ - start time of the injection (initial measurement ρ ^ = 0), s;

; ... ( _η is the time of ..., replacing, s;

- during the current measurement, s;

- Recession on the area at the beginning of the download and at the time

in the course of time (previous measurement, Pa; 17

Δ Ρ (() - reaction to the place at the time ( _Ν current Ν measurement, Pa;

Ο _> 0 '° continuous discharge (- fluid in the bottom ^χ conditions ^χ at the beginning

downloads and at the time of the previous measurement, m ³ / s;

Υ (() is a function of the process that is working on

non-stationary flow in a separate zone of a unit of flow (χ - liquid, in

current moment of time ^ from the beginning of the process, Pa * s;

£ - hydrodistribution of the area, m ² * m / Pa * s:

k * AND ε = -; 02) m to - the availability of plastic for plastic liquid, m ² ;

And - the effective thickness of the productive layer, which takes the injected liquid, m; μ - viscosity of plastic fluid, Pa * s.

Simultaneously with the function of the recession, Υ (^) calculates the accumulated volume

fluids in the bottom ^χ conditions ^χ UΥ (( _Ν ), which was lost in the area at the time

start of download, πο φορmule:

ο _; 5 * (ρ _{! +} Ρ _{ι + ι} ) *, ₊₁ -) * (ϊз)

The obtained values of Υ (,) and УУ (( _Ν ) are applied to the graph.

Φa φig. 5 The group of dependencies of the function of the recession Υ (*) οτ

accumulated fluid volume ^ (( _Ν ) and in addition to the well

gel composition: one of the components of the “Simeta” system and the “DEG” resin, where the abscissa has been calculated for the accumulated volume (( _Ν , ³ , 18

the values of the function of the Υ depression ( _Ν ), Μ Pa-s. Φa φig. 5 items the following conditional

οbοznacheniya 1 - πeρvy πρyamοlineyny uchasτοκ πρi zaκachκe in πlasτ 6.7 m ³ geleοbρazuyuschegο sοsτava, 2 - vτοροy πρyamοlineyny uchasτοκ πρi zaκachκe further in 1.2 m ³ πlasτ geleοbρazuyuschegο sοsτava, 3 - τρeτy πρyamοlineyny uchasτοκ πρi further zaκachκe in πlasτ 4.4 m ³ gel-generating system, 4 - the fourth direct part of the industry and the supply to the 4.2 m ³ bathing area.

If there is a digital registration of the property parameters and the system of the computer analysis, the separation of the values Υ (( _Ν ), ^ (( _Ν ) ^{and the} processing of the group

addictions

Υ (* „) = ^γ [ϊ _Ν ) \ (14) is not available in the process of real-time occupational exposure.

An approximation of the individual sections of the dependency group (14) is made by straight-line paths. Β in the interval [(, (] linear

the approximations determine the inclination of the linear section β. Magnitude

skin effect factor _• deteriorating condition of the private zone

bore holes in the interval [(, ( _{+ ι} ] technological operation, distributes

πο φορmule:

2,246 * ν 5 ^ = 2 * π * ε * β _; - 0.5 * \ η ' ₂ ^χ , (15)

Gf

where is the coefficient of the skin-effect, which reflects additional

Filtered imports of fluid due to contamination and imperfections in the opening of the borehole in the interval [(,

( _+] ] technological engagement;

at _c - ρ radius of the well, m; 19

χ - productive area, m / s;

β - naκlοn gρaφiκa zavisimοsτi (14) in inτeρvale vρemeni _{[(;, (; + λ} ]

technological impact, Pa * s / m ³ .

After reaching the planned value of the skin effect, they change the download mode and take it into account.

If you are operating a hydraulic platform, you will be able to download the product

fluids to a production or injection well. Additional information on

the hole is set to a specific range of hydraulic values of the reservoir £:

Including the true value of the hydraulic reservoir £:

£ \ £ isst £ m ^• >

They organize the process of pulsed non-stationary injection of reservoir fluid into the well. At the same time, they carry out measurements and registration of pressure, area and volume flow rate of the pumped-in fluid at the site. For each measurement at a time / in fact, in real time, the process calculates the pressure _loss Ρ _τρ (на for liquid flow in the medium,

hydrostatic pressure β _g (ø column of injected fluid, dynamic

bottom pressure ρ _with (/) πο φορ formula (9), reaction on the plate Δ ρ (ή ηο φορ formula

(10).

They calculate the volumetric flow rate of the pumped fluid ζ) (() in the abandoned

conditions ^χ . Then, for each of the accepted values of £ hydrodistribution of the area

οπρedelyayuτ values προizvοdnοy ΑΥ _m / Χ _m H _Ν) ΦU ^ΗΚ C ^AI ρeπρessii on πlasτ πο

φορmule 20

where: 7U, / U - Ι - current and previous measurement (] У = 2; 3; 4; ...) pressure, pressure and volumetric discharge fluid;

/ = 0; 1; 2; ... Ν - 2- numbers are ^χ equivalent,

^ ν '^ ν-ι ^"in Ρ ^emya τeκuschegο and πρedyduschegο zameροv with;

( ₀ \ _χ \ --- - the time is π equivalent to ^χ substitutes, s;

Δ ρ _{with ((Ν),} Δ ρ _with (_) - ρeπρessiya on πlasτ in Te ^'κuschem and πρedyduschem zameρaχ,

Pa;

β, - the volumetric fluid flow in the uninhabited conditions in the current and

πρ; previous measurement, m ³ / s;

Ο - voluminous liquid flow in uninhabited conditions in the preceding

measurement, m ³ / s;

{ _T {'Failure of the recession, ^χ that works on the work spent on

non-stationary flow rate of a unit of fluid consumption in a hydrodynamic unit p,

at the time + from the beginning of the process, Pa * s;

£ - calculated hydrostatics, m ² * m / Pa * s:

ε _m = ^ -; ⁽ ϊэ ⁾ 21

L - the calculated profitability of the product for the production of liquid, m. 2. ;

And - the effective thickness of the productive layer, which takes the injected plastic liquid, m; μ - viscosity of plastic fluid, Pa * s.

Simultaneously with ΔΥ _t / ΔΧ _t (^) ^{for the same moment of} time { _Ν πο

Formula (13) determines the accumulated volume of liquid in non-standard conditions ( _Ν ),

which has been in the area at the time (from the beginning of the download.

The resulting values are applied to the graph.

Φa φig. 6 πρedsτavlen gρaφiκ zavisimοsτi προizvοdnοy ΑΥ _m / Α ^{^} Κ _.T h _Ν)

Functions of the treatment for the accumulated liquid volume in the abandoned conditions Ψ {( _Ν ) at the time of loading into the bore of the gel generating unit:

of the “Home” compound and the “DEG” resin, where the abscissa is the value of the accumulated liquid volume, m ³ , the absolute value is the value of the physical function. In Fig. 6, the following conditionals are:

- ^• »- - the discharge group, when in the calculation of the hydraulic unit 5.1 mkm ^2- m / mPa-s;

-sh- - discharge group, when in the calculation of the hydraulic reservoir 20.4 mkm ^2- m / mPa-s;

-Δ- is a discharge group, when in calculating the hydraulic reservoir 10.3 μm ^2- m / mPa-s.

Particularly variable ΔΥ / ΔΧ substantially depends on the actual value

area hydraulic industry £. The closer the value of κ to the true value

hydrodistribution of the area, the closer the group is the output ΔΥ / ΔΧ κ direct,

parallel abscissa. If the true value is included in the range (17),

Here are some of the other dependencies 22

one is installed - two lines, closer to the rest ^χ corresponding to ^χ conditions:

ΔΥ / ΔΧ [{> ε _IC τ \ = ^С0П5 '- ⁽²¹⁾

Further, by the well-known method of investigation, the value is found

Hydraulic area of the £, non-derivative ΔΥ / ΔΧ may be located

Best kept. The optimal fulfillment of condition (21) is achieved by numerical methods with the use of a device of practical physics. The value that ensures the fulfillment of the condition is the best way, and is

The sought-after value of the reservoir £.

For the purpose of dividing the parameters of the free zone, the proposed method makes it possible to conduct preliminary studies in order to clarify

hydrostatic area of the area for the establishment of a material contamination

πρ-free zones (5> 20 ÷ 30).

If the obtained coefficient of skin effect 8 ≥ 20 ÷ 30 is obtained by a method or other known method, the proposed method will be implemented.

Uκazanny πρedel οbuslοvlen sοvρemennym τeχnichesκim uροvnem οπeρatsy πο zaκachκe zhidκοsτey in πlasτy, gaρanτiρueτ dοsτοveρnοe οπρedelenie πaρameτροv πρizabοynοy zοny πρi ρegisτρatsii ρasχοda and pressure on zaκachκi usτe and mοzheτ byτ reduced πρimeneniem usτevοy sτantsii κοnτροlya τeχnοlοgichesκiχ προtsessοv.

For ρealizatsii πρedlagaemοgο sποsοba on usτe sκvazhiny ορganizuyuτ οsnοvnοy προtsess imπulsnοy nesτatsiοnaρnοy zaκachκi πlasτοvοy zhidκοsτi, κοτορy χaρaκτeρizueτsya κοlebaniyami ρasχοda οτ minimalnyχ values οbesπechivayuschiχ sτabilnuyu zaκachκu with προτivοdavleniem on usτe sκvazhiny, dο maκsimalnyχ, οbesπechivayuschiχ πρi eτοm nedοπuschenie ρazviτiya isκussτvennοy τρeschinnοsτi in πρizabοynοy zοne πlasτa. This is achieved by the following conditions: 23

where ρ _maκs - maκsimalnο dοπusτimοe zabοynοe pressure προtsesse zaκachκi

plastic fluid, аPa;

₍ U is the pressure of the disruption of the crust in the underground zone of the area, ΜPa.

It has been established that in order to obtain good results, it is necessary to get downloads for a few (4-6 or more) modes of pumping with a shorter, larger, more

Possibility to download D on each mode installs the experience

By and by, or approximately evaluate the following:

D # * (0.2 ÷ 0.5) -, (23)

X where ^ is the value of the coefficient of the skin-effect, the separate parameter and the preliminary tests of the well; χ - availability of the floor, m ² / s.

Β φοmule (23), coefficient 5 is not dimensioned, and the size

PERFORMANCE TO DOWNLOAD ON EACH PROCESS MODE: | D β \ - s.

Basically, an appreciated assessment of the stability of the main process is performed by the impulse non-stationary non-stationary process of pumping, which increases the pressure on the machine.

£> (β ≤ Ι ≤ β) = ζ) ≡ со (, (24)

Ζ 2 Ζ + \ _ζ

where: - the current time at the beginning of the process of the basic pumping of the liquid fluid, with Ζ = 1, 2, ... - the normal cycle mode of the basic pumping; β, β - the time of the beginning and ending of the mode of the main injection (beginning

Ζ Ζ + 1 primary mode of injection β = 0), s;

1 24

Ο - the average flow rate for the mode of basic injection (approximate ζ variance of ζ) ≡ means that it means that in the process of basic pumping

dοπusκayuτsya κοlebaniya ρasχοda dο 20 ÷ 30% οτ sρedney value ρas οda ^χ) to ζ dannοm ρezhime), m ³ / s.

In the process, injections from the bore hole measure and register pressure, volume and volumetric flow of the liquid with an interval of 5–60 s (i.e., 60 s). For each measurement at a time I

In real time, the process calculates the pressure _loss Ρ _τρ (0 for liquid

friction in the domestic and industrial pipe, hydraulic pressure ρ _g (ø

injected reservoir fluid, dynamic bottom-hole pressure ρ (ø πο

φορmule (9) on ρeπρessiyu πlasτ Δ Ρ _with (ø πο φορmule (10) οbemny ρasχοd

liquid industry ζ) (() bottom conditions. Then for each meter,

carried out in the current time interval β <<β on the pump mode,

Ζ Ζ + 1 selects the function of the process ψ ₂ (^ ₂ ) ^χ which accelerates non-stationary

Flow of injected liquid in a free zone at a given mode, at a manual:

(25)

25

where Ν = 2; 3; 4 ... - the number of the current measurement;

_/ '= 0; 1; 2; ... Ν-1 - numbers are ^χ equivalent;

Αρ ((), Αρ () - ρ depression for the current and previous measurement ^χ ,

Pa;

β - the volumetric fluid flow in the downstream conditions in the current and

πρ; previous measurement, m ³ / s;

ζ) - Volumetric discharge of liquid in unforeseen conditions in the preceding

measurement m ³ / s;

^ - the time of the current measurement, s;

_{(ο <{\ '•• -} {Ν - \' ⁱⁿ Ρ ^{χ emya} πρedshesτvuyuschi zameροv with;

Α _ζ - a temporary interval of the current Ζ Operating mode of the main download

Θ ≤ (Ν ^≤ Θ

Ζ Ζ + 1

(ζ = ( _Ν - θ. (26) ζ χ - surface seamness, m ² / s;

γ _s - ρ radius of the borehole, m.

The value of the function of the depression * _ζ (Α ( _ζ ) is not measured.

Calculations on the basis of formula (25) are performed for all measurements

statutory parameters For each mode Ζ downloads on the basis of execution

Replacing the parameters and calculating the information given in the manuals takes place. 26

Φa φig. 7 A graph of the dependence of the function of the reaction ψ _ζ (Δ ( _ζ ) οτ

temporarily intervened на (for example, injected into the well of a liquid, where

With abscissa, the quantities 1η Δ _{ζ are given} , and if abscissa, the values are the functions

ψ (Δ ^), corresponding to this time interval Δ ^ _ζ . Φa φig.

Πρinyaτy track 7 ^'guides uslοvnye οbοznacheniya: Ζ = 1, 2 ... 10 - gρaφiκi φunκtsii

Recessions in the period Δ ^ ₂ injections of a liquid into an unavailable

a hole in the operating mode with β: - • "- - 1; -sh- - 2; -Δ- - 3; -χ- - 4; -*- - 5; - • - - 6; - ζ

Η- - 7; 8; - -9; - ^ - - 10.

If there is a digital registration of the hardware parameters and the system of the computer analysis, the division of the values 1η Δ ^ _ζ , ψ _ζ (^ () ^and use

of the groups ψ _ζ (Α _ζ ) = φ (

UNDERSTANDING IN

In the process of injecting liquid in real time (current measurement.

In each case, each of the modes of the basic download corresponds to its own line (Fig. 7). In the general case, in each of the obtained groups, an initial, indirect, linear portion is distinguished (for example, see table 1), which eliminates the need for a steady-state fluid-free load.

This is the download mode and is written by the equation of the direct line:

By known mathematical methods the smallest squares are found

_{) ζ} and the initial section ^ _{ζ of the} selected direct linear path to each Ζ

Download mode. After this, I divide:

hydraulic well bore zone £ 27

Conventional well bore zone γ

For the most part, all of the following equations (9) have a common intersection,

isποlzuya found κοeφφitsienτy _ζ, b _ζ '(2 _ζ -' b _ζ - _\ ^{dv to} have ^{χ smezhnιχ} ρezhimοv

(Ζ _< Ζ ~ \ downloads, determines the skin-factor of _ $ ^• :

After calculating the radius Ρ _π pollution zones

Β φορ formula ^χ (28) - (31) of the size range of the quantities: [ε] = m ² * m / Pa * s;

[χ] = ms; [Λ] = m, the coefficients _βζ , ^ _ζ , 5 "are dimensionless.

Performance Considerations

1. Pρimeρ Ηa nagneτaτelnοy line πeρed usτem sκvazhiny ορganizuyuτ izmeρiτelny uchasτοκ sοglasnο φig 1 and 2 dlinοy 6m ποzvοlyayuschey φiκsiροvaτ πeρeπady pressure πρi τechenii zhidκi ^χ sρed with minimal gidρavlichesκimi sοπροτivleniyami.

Izmeρiτelny uchasτοκ vyποlnyayuτ as κalibροvannοy τρuby 1 vnuτρennim diameτροm 62 mm on κοτοροy mοnτiρuyuτ two daτchiκa ρasχοda 2 maρκi PEΑ1 pressure daτchiκ 3 maρκi "ΜIDΑ" and diφφeρentsialny manοmeτρ 4 τiπa "Saπφiρ" with imπulsnymi τρubκami 5 and 6, sοedinennymi with nachalοm and end 28

measuring area. Zameρy pressure ρasχοda and πeρeπada pressure πρi zaκachκe ρabοchegο agenτa προvοdyaτ on izmeρiτelnοm uchasτκe 1. Izmeρiτelny uchasτοκ 1 vyποlnen dlinοy, ποzvοlyayuschey φiκsiροvaτ πeρeπady pressure πρi τechenii zhidκi ^χ sρed with minimal gidρavlichesκimi sοπροτivleniyami. The device is connected via a discharge line of 7 through 8.

Outputs of pressure sensor 3 of the “ΜIDΑ” brand and differential model 4 of the type “Safe” are connected by electric cables 9 and 10 with the disconnect unit of the 11 12 sports . Βyχοdy daτchiκοv ρasχοda 2 maρκi PEΑ1 sοedineny eleκτρichesκimi κabelyami 15 and 16 vτορichnymi blοκami ρasχοdοmeροv 17 τiπa "Βzleτ" BII and 18 "Dneπρ-7" BP and further with blοκοm sbορa inφορmatsii 14. Blοκ sbορa inφορmatsii 14 sοedinen with κοmπyuτeροm 19 τiπa Ηοuτbuκ.

Pρi nagneτanii ρabοchegο agenτa cheρez izmeρiτelny uchasτοκ 1 to 8 sκvazhinu analοgοvye daτchiκa pressure signals 3 and 4 diφφeρentsialnοgο manοmeτρa ποsρedsτvοm eleκτρichesκiχ κabeley 9 and 10 cheρez blοκi isκροzaschiτy 11 and 12 in ποsτuπayuτ vynοsnοy blοκ 13 and further to blοκ sbορa inφορmatsii 14. Β blοκaχ isκροzaschiτy 11 and 12 galvanic isolation of electric circuits is produced.

Chasτοτnye signals daτchiκοv ρas οda ^χ 2 ποsρedsτvοm eleκτρichesκiχ κabeley 15 ποπadayuτ on vτορichnye blοκi ρasχοdοmeροv 17 and 18, with οτκuda ποmοschyu sοediniτelnyχ κabeley 16 ποsτuπayuτ on vχοd sοοτveτsτvuyuschiχ κanalοv blοκa sbορa inφορmatsii 14.

Β blοκe sbορa inφορmatsii 14 signals on ποsτuπayuschie vχοdy izmeρiτelnyχ κanalοv, πρeοbρazuyuτsya in tsiφροvuyu φορmu and πeρedayuτsya in κοmπyuτeρ 19, where ποmοschyu προgρammnοgο οbesπecheniya ποsτuπivshaya inφορmatsiya vizualiziρueτsya and zanοsiτsya in πamyaτ κοmπyuτeρa 19.

When operating a borehole, open a working zone in an inactive borehole with a depth of 2230 m for the purpose of isolating the water. 29th

With the help of a well, the process is controlled by a pulsed non-stationary injection of a reagent with fluctuations in flow rate and pressure with random changes in the values of amplitude and frequency. The flow rate varies at an amplitude of 0.084 to 7.6 l / s, and at a frequency of 0.002 to 0.02 Hz. Pressure varies at an amplitude of 1 to 10 ÷ 15 Μ for the same frequency.

The process of borehole processing is included in the download in a convenient area of the area

product of a gel-forming composition ((χ =) and its industrial product supplier

(X ~ 2) • * • * - 'as a gel-forming compound use an aqueous solution

of the Κometa ’community and the“ DEG ”resin, which formulate a pseudo-plastic system. Download with an initial output of 5.3 l / s.

When downloading a gel-forming system at a well, it takes measurements and registers the pressure, the pressure drops to the measuring device, and it is electrically For

κazhdοgο zameρa ρas ^χ οda nagneτaemοy zhidκοsτi Ο (() and πeρeπada pressure on

izmeρiτelnοm uchasτκe D Ρ _ish (() in ρealnοm vρemeni προtsessa ρasschiτyvayuτ

AUXILIARY PARAMETERS ^, πο φορmulas (1). Τаκ, for (= 1150 s

The basic and commercially available pipes were completely filled with a separate part of the “Memeta” system and the “DEG” mixture, due to the fact that there are no

(^ (() = 829.44 m ³ / day; ρ _unit (() = 13.614 Μ Pa and D ρ _ish (() = 0.01441

Μ Pa.

Whenever from formula (1) for (= 1150 with optional parameters ζ}, Τ]

ρ Equals: thirty

β (0 829.44 ο, - = 3.480 * 10 ⁶ 1 / day;

SΙism 0.062 ³

₌

1 _. 489 * 10 " ⁴ ΜPa,

^ rev

where: _ζ [= 0,062 m is the internal diameter of the measuring section;

= 6 m - the length of the measuring section (distance between the axes

pulse pulses at the measuring section).

Values of optional parameters ^, C ^~ , calculated for

formulas (1) for the moment (, put on the dependence group (Fig. 3)

υ _λ = υ _λ c).

where πο is the abscissa

, πο ορdynam - quantities Ι ^* Τ Τ.

After the first change of ^χ 40 values] = Τ] (), the result

The approximation of the resulting array is also correlated with the dependency:

^, ^ -13.9, ^ 1.5525

Β hereinafter the new data are received (the values of πаρ (^ and Τ Τ)

OPTIONAL OPTIONS Τ] = Τ ^ ( ^~ }) Practically not

have changed.

After establishing the type of correlation dependency (2) for each measurement

ρas ^χ οda ζ) (() geleοbρazuyuschegο sοsτava in ρealnοm vρemeni προtsessa πο

formula (3) calculates the optional parameter (^. Qaq, for £ = 1150 s: 31

Where

0 059 ^m - internal diameter of the pumping room

Apparent Сл = Сχ = 4.039 * 10 ^s ^ ' ^from κορρ relational

dependences (2) = £ /. β) οπρ

1.5525 ϋ - s ³ - ⁹⁸¹ -σ, ¹ ' ⁵⁵²⁵ = κg ¹³ - ⁹⁸¹ ((4.039 * s ⁶ )

= ^{1.884 '10 ~ 4 ΜPa} -

For each measure of discharging Ο (() in real time, the process is φ φ φ φ м м уле

(6) Calculate the coefficient (βшά \), Д] hydraulic equipments

flow in a commercially-available tank of a gel-forming system. Τаκ, for / = 1150

with πρ and ρасχοде Ο (() = 829.44 m ³ / day:

9.2095 * 10 ¹⁵ * 1.884 * 10 ^{~ 4} * 0.059 ^

= 3.056 * 10 -2 1000 * 829.44 ²

where υ = 1 .884 * 10 ^ ^a is an all-encompassing parameter; (2nct ⁼ 0 059 ^g

- internal diametr of the home-industrial tubular; η (βшά \) = 1000 κg / m ³ 32

the density of the gel composition in the mouth conditions ^χ , kg / m ³ ; ζ) (() = 829.44

1

m ³ / day - liquid consumption at a time / = 1150 s;

), Α (\ = 3.056 * 10 ² "

Hydraulic Power Factor in a Domestic Compressor

the gel forming composition and the discharge ζ) (() = 829.44 m ³ / day.

Parameters of equation (6), values of coefficient

), D /]

hydraulic power supply in the mainstream communal facilities

the gel composition is applied to the addiction group

\ =

φ \ ζ) (() (fig. 4). For abscissa, the quantities ζ) ((), πο

'eleven

ορdynam - quantities \

After receiving a change of 40 points, an approximation of the results obtained is obtained.

array. The relational dependency has the form:

Β In the future, at the beginning of the publication of new data of the functional parameters

dependences / = υ- _\ (C _\ πpactically have not changed.

For each measure of waste ζ) (() for the relational dependence

λ (βшά \ ^в Ρ ^еал номом during the time of the process

ρasschiτyvayuτ κοeφφitsienτ gidρavlichesκi ^χ sοπροτivleny in nasοsnο-κοmπρessορnyχ τρubaχ ποτοκa geleοbρazuyuschegο sοsτava (vοdnοgο ρastvορa sοποlimeρa "Κοmeτa" and smοly "DEG" οbρazuyuschiχ πsevdοπlasτichnuyu sisτemu). 33

According to this data, for every measure of P. waste (() ⁱⁿ real time

1

προtsessa πο φορmule (8) ρasschiτyvayuτ ποτeρi pressure ρ _τρ (() geleοbρazuyuschegο

composition for liquid trap in a domestic compart- ment pipe ^χ . Τаκ, πρ и ρас ^χ οде

Ο (() = 829.44 m ³ / day of pressure of the gel-forming composition on the liquid

τρ ρ equals:

Ρ _ΤΡ ({= \\ 50 s) =

= 0.10858 * 10 ^"

0.10858 ¹⁵ -10- • 0.03057 - 1000-2230-829.44 ', ^.

0.059 ⁵

where λ

⁾ )>, ΑΛ ((] I - hydraulic power factor

the gel composition in the domestic-industrial complex and the flow rate of 829.44 m ³ / day;

0.4475 _ _{l ο l ο Λ} ,, -0.4475 _ λ (βшά \), Α (\ = 0.61873 * βГ '= 0.61873 * 829.44 ^"

= 0.03057 ^;

Τ = 2230 m - the length of the pumping room is located at the mouth of the shoe.

When dynamic bottom-hole pressure ρ _s ((at the current time

/ = 1150 with πρ and a flow of 829.44 m ³ / day πο φορmule (9) is equal to:

Ρc ({) = Ρ _USΤ ({) ⁺ Ρ _Γ ({) - Ρ _ΤΡ ({) = 13.614 + 21.876 -7.124 = 28.366 ΜPa; 34

where: ρ ((= 13.614 ΜПа - steady-state pressure at the moment ^ = 1150 with the injection

the gel composition of πρ and ρac ^χ ode ζ) (() = 829.44 m ³ / day;

ρ (() = 21.876 ΜPa - hydrostatic pressure of the gel-generating unit

composition;

ρ (() = 7.124 ΜPa - at the pressure of the gel composition on

liquid friction πp and flow ζ) (() = 829.44 m ³ / day.

This is where the recession for the area Y Ρ _s (() at the time (= 1150 per download

the gel composition of the mixture and the discharge Ο (() = 829.44 m ³ / day of the formula (10)

ρ equals:

Δ Ρс ({) = Ρс ({) - Ρπл = 28.366 - 14.952 = 14.414 ΜПа,

where ρ _ш = 14.952 ΜПа - reservoir pressure, πppecific κ depth = 2230 m

shoe of a well-equipped communal house.

EXAMPLE 2. On the discharge line, by means of the borehole, organize the measuring section, as in Example 1.

When operating a borehole with a depth of 2230 m, it is necessary to process the working zone for the purpose of isolating the water. The processing process is downloaded as

πρizabοynuyu zοnu sκvazhiny πορtsy geleοbρazuyuschegο sοsτava ((χ - \ and egο

Industrial water supply ((χ = 2) • ^ as a gel-generating system

they use the “Resource” system and the “DEG” resin, which is an alternative system. Download with an initial output of 5.3 l / s. 35

With the help of the well, the process is controlled by the pulse non-stationary injection of the reagent. Pροtsess imπulsnοy nesτatsiοnaρnοy zaκachκi ρeagenτa ^χ aρaκτeρizueτsya znachiτelnymi κοlebaniyami ρasχοda and pressure change values ^χ aοτichnymi πο amπliτude and chasτοτe. The flow rate varies at an amplitude of 0.084 to 13.6 l / s, and at a frequency of 0.002 to 0.02 Hz. Pressure varies at an amplitude of 1 to 10 ÷ 15 Μ for the same frequency.

In the case of the current fair value, the value allocated to the results of the quick pulsed non-static well-being is used. Pρedvaρiτelnye isπyτaniya dannοy sκvazhiny on πρiemisτοst πlasτοvοy vοdοy ποκazali, chτο τeκuschaya προnitsaemοsτ πlasτa to sοsτavlyaeτ 0.163 mκm ² προvοdimοsτ k * 2.45 mκm ρavna to ² * m, κοeφφitsienτ sκin-eφφeκτa οtsenen κaκ 12.89. The availability of spare fluid is 1, 02 MPa * s, so that the hydraulic unit ε π φ φ м м м (19) is equal to:

2 45 ε = - - = 2.4 μm ² * m / (mPa * s) = 2.4 * 10 ^"9 m ² * m / (Pa * s). 1.02

The piezoelectricity of the area χ is 0.05 m ² / s, the radius of the well is equal to γ

0.084 m.

The processing process is included in the download to a convenient area of a well of a gel-forming composition and its industrial product. At the same time, measurements and registration of pressure levels, density and volume flow of pressurized liquids with a discharge of 5 s are carried out at the well. For every moment of time / πο

this data in real time the process calculates the pressure ρ (0 on

liquid friction in the domestic and industrial pipes, hydraulic pressure Ρ _g (pressure of the reagent, dynamic dynamic pressure ρ (ή π π ο

φορmule (9) on ρeπρessiyu πlasτ Δ Ρ _with (ø πο φορmule (10) οbemny ρasχοd

of reagent ζ) (ø in the desert conditions. Then for each Ν measurement (β moment 36

at a time ^) πο φορmule (11) calculates the value of the function of the recession Υ and πο

formula (13) is the accumulated volume of the reagent Ψ in the abyss ^{χ of the} condition ^χ , which has disappeared in the area at this time.

The obtained values of Υ and Ψ are applied to the graph (Fig. 5). Е Actually, the approximation of the separate sites of the obtained group Υ - Υ (Ψ)

with linear paths and distributes them inclined. The first site corresponds to downloading to a custom zone of 6.7 m ^{3 of} gel-forming composition, and with this inclination β

It was: β _χ = 1167.9 Μ Pa * s / m ³ = 1167.9 * 10 ⁶ Pa * s / m ³ ,

and the factor of the skin effect ^ πο φορmule (15):

C = 2 * 3.1416 * 2.4 * 10 ^"9 * 1167.9 * 10 ⁶ - 0.5 * 1η ² ' ^{2 b} * ° ° ⁵ = 16.228. ¹ 0.084 ²

Eτa value ποκazyvaeτ, chτο προvοdimοsτ πρizabοynοy zοny in ρezulτaτe zaκachκi 6.7 m ³ geleοbρazuyuschegο sοsτava nesκοlκο decreased in προtsesse dalneyshegο nagneτaniya ρeagenτa naκlοn vτοροgο πρyamοlineynοgο uchastκa, aππροκsimiρuyuschegο κρivuyu Υ = Υ (Ψ) in diaπazοne 6,8 <Ψ <8,0 m ³ , weight and composed: β ₂ = 1988.7 Pa * s / m ³ = 1988.7 * 10 ⁶ Pa * s / m ³ .

The value of the coefficient of the skin effect, which corresponds to the second party

with a slope of 1988.7 * 10 ⁶ Pa * s / m ³ , equal to $ ₂ = 28.605.

Pοluchennaya value uκazyvaeτ on προχοdyaschy in πρizabοynοy zοne sκvazhiny προtsess zaκuπορκi dο προeκτnοy magnitude 28 - 30. Β eτοy communication ποsle zaκachκi πlasτ in 8.0 m ³ of the mouth geleοbρazuyuschegο sοsτava πρeκρaschayuτ nagneτanie ρeagenτa in nasοsnο- κοmπρessορnye τρuby and nachinayuτ κachaτ προdavοchnuyu zhidκοsτ.

In the case of Υ = Υ (Ψ) (Fig. 5), this corresponds to sections 3 and 4 with practical

with declining inclines of 1958.8 and 2022.2 ΜPa * s / m ³ . Release 3 of the Newsletter 37

geleοbρazuyuschegο sοsτava of nasοsnο-κοmπρessορny ^χ τρub in πρizabοynuyu zοnu προdavοchnοy zhidκοsτyu (llasτοvοy vοdοy) κοeφφitsienτ sκin-zφφeκτa on eτοm uchasτκe <? ρ is 28.154. Consequently, the direct reduction in business efficiency

The free zone is reached, further purchase of the free well zone is not possible _, and the loading of the gel composition has been correctly completed. This confirms the coefficient of the skin effect for 4 sections: ₄ = 29.11, which complies

a simple indicator.

Ηeποsρedsτvennο πeρed προvedeniem izοlyatsiοnnyχ ρabοτ gidροdinamichesκie issledοvaniya not προvοdilis, ποeτοmu in izvesτnyχ sποsοbaχ isποlzοvalas value προvοdimοsτi πlasta πο ρezulτaτam ρanee vyποlnennyχ gidροdinamichesκiχ issledοvany to 4.59 * k = ² * m mκm. Βyazκοsτ nagneτaemοgο ρeagenτa sοsτavlyala 15 mPas.

Β As a result, well-known methods have shown that the purchase of a free zone is not achieved, but the coefficient of the skin effect is in the range of -5.1 [-0].

EXAMPLE 3. On the discharge line, by means of the borehole, organize the measuring part of the hull in Example 1 and select the hydraulic unit.

Pροvοdyaτ zaκachκu πlasτοvοy zhidκοsτi in neφτedοbyvayuschuyu sκvazhinu glubinοy 2240 m. Οtsenκi τοchnοsτi οπρedeleniya gidροπροvοdnοsτi πlasτa πρedlagaemym sποsοbοm προvοdyaτ πρedvaρiτelnye issledοvaniya sκvazhiny meτοdοm vοssτanοvleniya pressure in sοοτveτsτvii with κοτορym gidροπροvοdnοsτ πlasτa sοsτavlyaeτ mκm 10.2 ² * m / (mPa * s). In general, to evaluate the accuracy of the division of the hydraulic area of the company:

£ isst ~ ^{10.2 ΜΙ | 2} * m / (mPa * s).

Before operating at a well, a random range of hydraulic unit values is specified:

1 μm ² * m (MPa * s) <≤ 30 μm ² * m / (MPa * s); 38

Obviously, including the true value of the hydraulic capacity of the reservoir with = 10.2 μm ² * m / (mPa * s).

The process of separating the hydraulic unit is included in the download of the 3 m ³ reservoir liquid. Zaκachκu veduτ with initial ρas ^χ οdοm 5.8 l / s. With the help of a well, it organizes the process of pulsed non-stationary injection of fluid with vibrations of flow rate of 5.2 to 6.4 l / s and a frequency of 0.02 Hz, the pressure changes. At the same time, they perform measurements and registration at a well interval of 5 s at a pressure of pressure, density and volume flow rate of the pumped-in liquid fluid. For each measure at a time ι πpo this

In real time, the process calculates the pressure _loss Ρ _τρ (ø on

liquid friction in a domestic and industrial pipe, hydraulic pressure Ρ _g (ø pressure head, dynamic downhole pressure ρ (ø π)

φο formula (9), a recession on the plate Δ Ρ _s (0 πο φορ formula (10).

CALCULATING THE VOLUME DISCHARGE OF THE SUPPLY FLUID 0 (0 in the bottom

conditions Then, for each of the accepted values of £ hydrodistribution of the area

οπρedelyayuτ προizvοdnοy value D _t Υ DΧ _t \ _(Ν) πο φορmule (16). One day

share the accumulated volume

liquids in the bottom ^χ conditions ^χ Ψ ( _m ), which has been in the area at the time of

start of download, πο φορmule (13). The obtained values are applied to the graph (Fig. 6), where the abscissa gives the values, but the abscissas correspond to them.

ΔΥ _t / ΔΧ _t ϋ-

Community Editions

SHIELD ^{with eating} vennο zavisyaτ οτ πρinyaτοy

hydrodistribution area £ _t . The closer the value of κ to the true value

gidροπροvοdnοsτi πlasta £ _ist, τem closer gρaφiκi προizvοdnοy ΔΥ ", / ΔΧ _t and) ^κ 39

direct, parallel abscissa. Neighborhoods are ^χ values and ^χ dependencies

ΔΥ. / ΔΧ-U] Two lines are closer, closer

The other relevant conditions (21):

Further, by the well-known method of investigation, the values are found

hydraulic area of the reservoir £ = 10.3 μm ² * m / (mPa * s), direct and indirect

ΔΥ / ΔΧ may be at all times the best. Ρ ο ο им им им

the fulfillment of condition (21) is achieved by numerical methods using

device of practical physics. Value ^ -, which ensures the fulfillment of the condition

(21) the best way, and is the sought-after value of the profitability of the region, and the margin of error of its division is 1%.

EXAMPLE 4. On the discharge line, by means of the well bore, organize the measuring part of the hull in Example 1 and divide the parameters of the well bore.

The proposed method will be implemented on an unavailable well depth of 2240 m.

For οtsenκi τοchnοsτi οπρedeleniya πaρameτροv πρizabοynοy zοny sκvazhiny πρedlagaemym sποsοbοm dο προvedeniya ρabοτ πο ρealizatsii πρedlagaemοgο sποsοba on sκvazhine dοποlniτelnο vyποlnyayuτ gidροdinamichesκie issledοvaniya meτοdοm vοssτanοvleniya zabοynοgο pressure and gidροπροslushivaniya, οπρedelyaya πρi eτοm

the hydration of £, £ _tp and the availability of gamma, gamma and gamma

areas, skin effect coefficient and radius of the ρ _π pollution zone:

£ = 10.2 μm ² * m / (mPa * s); £ - _wπ = 0.51 μm ² * m / (mPa * s); γ = 1410 cm ² / s; 40

γV PPP = 70.6 cm ² / s; C = ⁵⁶ >^9; Κπзπ = ¹ - ^{68 m} -

For the purpose of dividing the parameters of the free zone, we propose that, at the borehole, preliminary studies are carried out with the aim of clarifying the hydraulic area. For this, pulse non-stationary injection of plastic liquid into the reservoir is provided. The resulting hydrodynamic value of the reservoir coincides with the results of hydrodynamic studies. INSTALLED ALSO

Significant contamination of the irrigation zone (_ $ *> 20 ÷ 3Ο). Therefore. Further

implements the proposed method, and with this, the dividing of the parameters of the free range is achieved by the registration of the pressure of the process, the pressure is

For the implementation of the proposed method, a non-functioning well will organize the main process of impulse non-stationary injection of a liquid. Οsnοvnοy προtsess imπulsnοy nesτatsiοnaρnοy zaκachκi χaρaκτeρizueτsya κοlebaniyami ρasχοda οτ minimalnyχ quantities 0.58 l / s, with οbesπechivayuschiχ sτabilnuyu zaκachκu προτivοdavleniem on sκvazhiny mouth dο maκsimalnyχ 5.79 l / s, ^χ οbesπechivayuschi πρi eτοm nedοπuschenie ρazviτiya isκussτvennοy τρeschinοvaτοsτi in πρizabοynοy zοne πlasτa, chτο is achieved by the fulfillment of condition (22) for the maximum downstream pressure in the process of pumping in the liquid: ρ _max <

30.6 ΜPa, where ρ _{with max} is the maximum permissible bottom-hole pressure in the injection process

plastic liquid, аPa.

To obtain good results, pump the reservoir fluid by 10 injection modes with a quick change of flow rate from a larger to a smaller one

and others (table 1). Possibility to download D ^ on each mode

I have an approximate assessment of formula (23): 41

d * (0.2 + 0.5) - * (0.2 ÷ 0.5) - ^ - “80 ÷ 200 s, С '' χ 0.141

for sale, we offer you the opportunity to download on every

The operating mode is D = 200 s (table 1).

In general, on the basis of the basic evaluation of the estuary, the basic process of impulse non-standard injections is reduced to a minimum cost of so that turning the variable flow rate will result in a slow down function (24) of the time I of the discharge (table 1).

Pρi zaκachκe πlastοvοy zhidκοsτi for οπρedeleniya πaρameτροv πρizabοynοy zοny on sκvazhine zameρyayuτ and ρegisτρiρuyuτ with inτeρvalοm 10 with (τ. E., With πeρiοdοm οπροsa 10) usτevοe pressure πlοτnοsτ and οbemny ρasχοd nagneτaemοgο ρeagenτa. For each measurement at a time, this data is in real time.

The process calculates the pressure loss Ρ _τρ (ø for liquid

compressor ^χ pipe ^χ , hydraulic pressure Ρ _g (ø

liquids, dynamic bottom-hole pressure ρ (ø πο φορmule (9). Further

Calculates the recession for the place Δ Ρ _s (ø πο φορmule (10). For each current

Ν measurement made in the current time interval β ≤ (≤ β in Ζ mode

2 Ζ + 1 downloads, calculates the value of the function of the reaction * _ζ (Α (), which characterizes

non-stationary flow of the pumped fluid in a normally well-bore zone in this mode. 42

The results of the application of the proposed method for the separation of the parameters of an inoperative zone of an inadequate borehole with impulsive inactivity.

Table 1

43

The calculations are carried out for all performed by ^χ measurements on the basis of ^χ parameters. For κazhdοgο ρezhima Ζ zaκachκi on οsnοve vyποlnennyχ zameροv usτevy ^χ πaρameτροv and ρascheτοv sτροyaτ gρaφiκ where πο οsi οτκladyvayuτ x-values 1η Δ *, πο οsi ορdinaτ - sοοτveτsτvuyuschie dannοmu vρemennοmu inτeρvalu Α _ζ

values of the function of the recession ψ _ζ (Α ( _ζ ). As in Fig. 7, the group of functions

recession ψ (^ ( _ζ ), which characterizes the non-stationary flow pumped

zhidκοsti in zagρyaznennοy πρizabοynοy zοne sκvazhiny in τechenii Ζ (Ζ = 1, 2, ... 9; 10) ρezhima zaκachκi, ποsledοvaτelnο for vseχ 10 ρezhimοv imπulsnοy nesτatsiοnaρnοy zaκachκi πlastοvοy zhidκοsτi in neφτedοbyvayuschuyu sκvazhinu πρi οπρedelenii πaρameτροv πρizabοynοy zοny πlasτa πρedlagaemym sποsοbοm in πρimeρe 1 . Ζ = 1; 2; ... 9; 10 - group dependencies of the function ψ _ζ (Δ ^ _ζ ) = Φ (1η Δ ^ _ζ ) οτ over time Α

injection of a liquid into an unavailable well in operating mode

β (τ. 1). ζ

For each of the 10 operating modes, the basic download corresponds to its own line (Fig. 7). For each of 10, ^χ groups were obtained in an interval of 20 s <Δ ^ <140 s

distinguishes the initial imparted linear portion, which prevents the non-stationary flow of the pumped liquid into the contaminated zone, which is very high (96) The smallest squares find a slope> _ζ and the initial section _{ζ of a} dedicated linear path

on each download mode (table 1). Next, divide the hydraulics ^ - and

The availability of the γ-free area of the area for му му му му лам лам лам лам (28), (29):

• πзс ^ ^ζ - ^ι * _Ρ - ^{5 '79 ~} ° * 102 * 10 " ⁹ =

{β / _ζ - (β - Ζ _ζ --1, ^{+ 2} * ^ * β _ζ 5.79 - 0 + 2 * 10.22 * 5.79

= 0.476 * 10 ^"9 m ² * m / Pa * s = 0.476 μm ² * m / (MPa * s); 44

Ζ ^~ * γ = ^{5 '79 ~} ° * 0, 141 = 0.00658 m ² / s =

Λ goal) - P 5.79 - 0 + 2 * 10.22 * 5.79

= 65.8 cm ² / s.

Αnalοgichnο οπρedelyayuτ £ _πt and χ for ^χ οstalny ρezhimοv zaκachκi

(τ. 1). Using the found coefficients _αζ , b _Ζ ' _ζ - _\ ' b _ζ - _\ ^{for two shifts}

modes Ζ, еж - 1 download, πο φορmulam (30):

After some м φ м м м м уле 31 ус 31 (м м м м м м м м м м ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег ег сл сл сл сл сл сл сл сл сл сл сл _сл сл сл,

Αnalοgichnο οπρedelyayuτ and _{'P tπ} T ^o οsτalny ^χ ρezhimοv nagneτaniya.

The results of the partitioning of the parameters for a private zone for 10 modes of downloading are listed in the table. 1, here are given the average values of parameters.

From the supply of the results of hydrodynamic studies of the well by the well-known method of restoring pressure, it follows that, for the sake of the present invention, it is a matter of interest. In the case of convenience, the separation of the hydraulic and the free zone makes up 7.4% of the total area; skin effect factor of 5.6%; The radius of the contamination zone is 3.6%.

The use of the long-term method will increase the accuracy of the impact rating.

Claims

45ΦΟΡΜUL ULTIMATE

1. Sποsοb οπρedeleniya χaρaκτeρisτiκ sκvazhiny, πρizabοynοy zοny and πlasτa, vκlyuchayuschy imπulsnuyu nestatsiοnaρnuyu zaκachκu ρeagenτa, zameρ on usτe sκvazhiny pressure zaκachκi and ρasχοda ρeagenτa, πeρescheτ dannyχ zameροv on zabοynye uslοviya, οπρedelenie naκοπlennοgο ρasχοda and ρabοτy, zaτρachivaemοy on nesτatsiοnaρnοe τechenie in πρizabοynοy zοne unit sκvazhiny The cost of the reagent, the calculation of the coefficient of the skin-effect at these indicators, taking into account the current profitability of the company, is used in the process ulτaτam κρaτκοvρemennοgο imπulsnοgο nestatsiοnaρnοgο isπyτaniya dannοy sκvazhiny on πρiemistοst πlasτοvοy zhidκοsτyu, change ρezhima zaκachκi ρeagenτa πρi dοsτizhenii neοbχοdimyχ φilτρatsiοnnyχ svοysτv πρizabοynοy zοny sκvazhiny, οπρedelennyχ πο sκin-eφφeκτu, ρasschiτannοmu πο naκοπlennοmu ρasχοdu and ρabοτe τecheniya unit ρasχοda ρeagenτa in πρizabοynοy zοne sκvazhiny with ucheτοm τeκuschey προvοdimοsτi πlasτa characterized by the fact that on the discharge line, by means of the borehole, organizing the measuring section with a long, utilizing lenses aτ πeρe-πady pressure πρi τechenii zhidκi ^χ sρed with minimal gidρavlichesκimi sοπροτiv-leniyami, as κalibροvannοy τρuby on κοτοροy mοnτiρuyuτ daτchiκi ρas ^χ οda pressure daτchiκ and dοποlniτelnο diφφeρentsialny manοmeτρ with imπulsnymi τρubκami, sοedinennymi with nachalοm and κοntsοm izmeρiτelnοgο uchasτκa and προizvοdyaτ pressure measurements, discharge and pressure drop and pumping agent to the well.

2. Method πο π. 1 οτlichayuschiysya τem, chτο for κazhdοgο zameρa in uslοviyaχ imπulsnοy nesτatsiοnaρnοy zaκachκi πlasτοvοy zhidκοsτi vο vρemya κazhdοgο ρezhima zaκachκi οπρedelyayuτ φunκtsiyu ρeπρessii, χaρaκτeρizuyuschuyu nesτatsiοnaρnοe τechenie in πρizabοynοy zοne sκvazhiny on προτyazhenii dannοgο ρezhima zaκachκi zhidκοsτi for κazhdοgο ρezhima sτροyaτ gρaφiκ zavisimοsτi φunκtsii ρeπρessii οτ lοgaρiφma vρemeni downloads in this mode, in each of the obtained groups, we distinguish the initial implicit direct linear part, by the method of the name of the square 46 naχοdyaτ πaρameτρy vydelennyχ πρyamοlineyny ^χ uchastκοv, πο κοτορym οπρedelyayuτ gidροπροvοdnοst and πezοπροvοdnοsτ zagρyaznennοy πρizabοynοy zοny and τaκzhe its ρadius and κοeφφitsienτ sκin-eφφeκτa.

3. Method πο π. 1 οτlichayuschiysya τem, chτο οπρedelyayuτ naκοπlenny ρasχοd and προizvοdnuyu φunκtsii ρeπρessii, χaρaκτeρizuyuschey ρabοτu, zaτρachivaemuyu on nesτatsiοnaρnοe τechenie in πlasτe unit ρasχοda πlasτοvοy zhidκοsτi, sτροyaτ gρaφiκ zavisimοsti προizvοdnοy φunκtsii ρeπρessii οτ naκοπlennοgο ρasχοda for diaπazοna gidροπροvοdnοsτi values zavedοmο vκlyuchayuschiχ gidροπροvοdnοsτ προduκτivnοgο πlasta, sρedi mnοzhestva The resulting external arrester selects a line that is closer to the other meeting the conditions of consumer equipment, which separates the hydraulic There is a productive area.

4. Ustροysτvο for οπρedeleniya χaρaκτeρisτiκ sκvazhiny, πρizabοynοy zοny and πlasτa, vκlyuchayuschee pressure daτchiκ and daτchiκi ρasχοda, ποdκlyuchennye κ πρisποsοbleniyu for ρegisτρatsii πaρameτροv sρedy, οτlichayuscheesya τem, chτο οnο snabzhenο diφφeρentsialnym manοmeτροm with imπulsnymi τρubκami, vτορichnymi blοκami ρasχοdοmeροv and ρazmeschennymi on line nagneτaτelnοy πeρed usτem sκvazhiny izmeρiτelnym uchasτκοm, dlinοy, ποzvοlyayuschey φiκsiροvaτ πeρeπady pressure πρi τechenii zhidκi ^χ sρed with minimal gidρavlichesκimi sοπροτivleniyami, as κalibροvann minutes τρuby on κοτοροy smοnτiροvany daτchiκi ρas ^χ οda, diφφeρentsialny manοmeτρ with imπulsnymi τρubκami, sοedinennymi with nachalοm and κοntsοm izmeρiτelnοgο uchasτκa and daτchiκ pressure and πρisποsοblenie for ρegisτρatsii πaρameτροv sρedy vyποlnenο as vynοsnοgο assembly ρazmeschennymi therein blοκami isκροzaschiτy and blοκa sbορa inφορmatsii connected to the computer and the output of the sensors are not connected to the unit due to the malfunctions of the unit s vyχοdy pressure daτchiκa and diφφeρentsialnοgο manοmeτρa. 4?

5. Devices πο π. 4, which differs in that, on the measuring section, the sensors for the separation of temperature and temperature are placed on a large part.